DE19755538C2 - Fluorescent discharge lamp with overcurrent protection - Google Patents

Description

The invention relates to a fluorescent discharge lamp with overcurrent fuse in which a housing comprising a base is mounted on a Accommodates electronic ballast arranged with overcurrent protection, which is wired only from a safety wire and two connecting wires ten, which are connected by welding, and the both ends is defined by contact points, one of which is the free connecting wire end assigned to the base is provided.

In a fluorescent discharge lamp of this type known from practice is still between the one connecting wire and the safety wire Fusible link welded on. All three welds are gas welds. The production of a gas weld is relatively complex, primarily time consuming, and three welds are created what is correspondingly complex.

A discharge lamp of the type mentioned at the outset is known from EP 0 452 743 A1 known. With such discharge lamps, the contact is usually place the second connecting wire a welded connection with an on fusible wire, which is attached to the circuit board with its other end. This welded joint and the fusible link are in a stabilized state and insulating tubes. In practice, the Overcurrent protection together with the so-called fusible link provided and supplied for the manufacture of the discharge lamp. With the the fusible wire provided known overcurrent protection exist the fusible wire, the connecting wire and the safety wire made of ver different materials. Both the two welds between the safety wire and the connecting wires as well as the welded joint between the one connecting wire and the fusible wire carried out in practice as gas welding. Leave the gas welds despite the different wire materials for the three welded joints  perform usable. The implementation of this gas welding is especially time consuming. There are also three welded joints required, which requires a relatively large amount of work.

The object of the invention is therefore a fluorescent discharge lamp to create of the type mentioned, their overcurrent protection with regard Lich the welded joints is less expensive.

The fluorescent discharge lamp according to the invention is therefore known indicates that the other contact point is connected to the other free connecting wire End assigned to the board, and that the two welded joints between the safety wire and the connecting wires are formed by electrical welding.

In the overcurrent protection of the fluorescent discharge according to the invention lamp, an additional fusible link is eliminated, which is possible because in the feed line to the ballast electronics of the fluorescent discharge lamp nothing can be melted down. This also eliminates the need for a welded joint len. Now there are only the two similar welded connections required between one of the lead wires and the fuse wire and these are carried out as electrical welds. An electric welding can be carried out in a shorter time than gas welding. The effort involved in the welded joints is avoided a welded connection and changing over to electric welding Lich reduced.

In electric welding, the two wires are close to the ver welding ends held by means of clamps and initially with some distance between the ends. Then you leave an electric one Arcs occur between the ends, the ends facing each other pushed and pressed. The invention also includes a Ver drive to manufacture an overcurrent fuse in which the fuse wire and a connecting wire each by electric welding with each other be connected by an arc between the two wires is created and the two wire ends are pressed against each other.  

The overcurrent protection of the fluorescent discharge according to the invention lamp is therefore characterized in that each of the two electric welds one end of the safety wire and one end of the connector wire in the axial direction butt pressed against each other and by means of Current passage fused together to form a thickening are. The thickening at the point of the electric welding is therefore through a Melt generated by current flow.

The fluorescent discharge lamps with the design according to the invention are mostly compact lamps or energy-saving lamps. The compact lamp is the overcurrent protection is relatively short, which is easier to implement, if the overcurrent fuse consists of only three wires. at the overcurrent fuse, the fuse wire is typically in one protective and shielding glass housing, possibly with a filling of Glass beads (Ballotini), but can also be naked. The contact points are in usually solder joints or welds.

The fuse wire, which melts in the event of an overcurrent, consists, for. B. from Nickel wire, alloys of nickel and manganese (e.g. NiMn 2 or NiMn 5), made of Ni-Cu alloys (e.g. Monel or Constantan), Ni-Fe- Alloys (e.g. FN 70) or Cr-Ni alloys. He usually has one Diameter of 0.125-0.3 mm and a length of 5-20 mm.

The two connecting wires, which are made of the same material or different NEN materials exist, z. B. made of copper-clad steel, copper fer, bronze, also tinned or galvanized, pure nickel, Ni clad steel, Dumet or CuNi alloys. You have each in the Usually a diameter of 0.2-0.8 mm and a length of 5-1000 mm and are e.g. B. the same thickness or different thickness.

It is particularly expedient and advantageous if the contact point of the a connecting wire on a circuit board of the ballast electronics and the Contact point of the other connecting wire on the end piece of the base lies. It is therefore the assignment of the overcurrent fuse to the ballast electronics essential, whereby the overcurrent protection in a narrowly limited ten room is housed.

In the drawing, a preferred embodiment of the invention is Darge represents and shows in

Fig. 1 is a schematic side view of a fluorescent discharge lamp with overcurrent protection, and in

FIG. 2 shows the overcurrent protection of the fluorescent discharge lamp according to FIG. 1, on an enlarged scale compared to FIG. 1.

The fluorescent discharge lamp according to Fig. 1 comprises a housing 1 made of sheet metal or plastic, the shipping at one end to a base 2 is hen, to which a first electrical connection contact 3 and a second electrical connection contact 4 are formed. On the side opposite the base of the housing protrudes from the housing 1, the discharge tube 5 , in which there are electrical filaments 6 . The number of discharge tubes and the associated coils is not important in the present context. In the housing 1 there is a ballast electronics 7 , which has 8 switching elements 19 on a circuit board, which are connected via a connecting line 9 to the one connecting contact 4 and via an overcurrent fuse 10 to the other connecting contact 3 . Switching elements 10 include capacitors, transformers, resistors and thyristors.

The overcurrent fuse 10 (see also FIG. 2) forms at one of two ends a contact point 11 at one terminal contact 3 and at the other end a contact point 12 on the circuit board 8 . A connecting wire 13 , 14 extends from each contact point 11 , 12 . Each connecting wire 13 , 14 enters a protective housing 15 and is connected to a safety wire 18 there by means of an electrical welding 16 , 17 . The overcurrent fuse 10 represents a connecting line for the ballast electronics 7 and to the circuit board 8 .

Claims (2)

1. fluorescent discharge lamp with overcurrent protection,
in which a housing comprising a base accommodates a ballast electronics arranged on a circuit board with overcurrent protection, which consists of only one safety wire and two connecting wires, which are connected to one another by welding, and which is fixed at both ends by contact points, the one of which defines one is provided on the base associated with the one free connecting wire end,
characterized by
that the other contact point ( 12 ) is assigned to the other free connecting wire end on the circuit board ( 8 ), and
that the two welded connections between the safety wire ( 18 ) and the connecting wires ( 13 , 14 ) are each formed by an electrical weld ( 16 , 17 ). 2. Fluorescent discharge lamp according to claim 1, characterized in that in each of the two electric welds ( 16 , 17 ) one end of the securing wire ( 18 ) and one end of a connecting wire ( 13 , 14 ) pressed against each other in the axial direction and by means of current passage under Formation of a thickening are fused together.